Flexibility? That is a broad term, but my best answer would be extremely flexible. As for the current conventional methods? Limited. Fiber optics transmit data by using light pulses. If you send more than one(ish) signals, the data interpretation and back end logic would be proportionally slowed down. If you don't understand that, I can't help you.
However, I gave extremely flexible as an answer first, and let me explain. Traditional fiber optics isn't as developed as it should be, and lacks the programming side necessary to take it to a true multi-channel level. Since it isn't hardware, the properties of light dictate its only bounds (past the front and back side engineering). You think of a way to transmit and interpret light pulses, and optical fiber will be your medium of choice. If you can't think of a way, just copy everyone else with their outdated fibers with limited signals.
KTHX BAI.
Optical fibers transmit signals over long distances by a process called total internal reflection. In this process, optical fibers bend light by bouncing pulses of light along their inner walls, which enables the pulses of light to travel quickly over long distances. For more information, refer to the related link below.
Yes, that is true - and that is commonly used in modern technology, but especially to transmit information. Note that in an optic fiber, light travelling along the fiber is simply reflected back inside, if it reaches the borders.
A laser link is an optical communication technology which uses light moving around in free space to transmit data for telecommunications or computer networking. This technology is quite useful rather than utilizing traditional optical fiber cables and transmission lines which constitute more "physical" uses of channels. Examples of laser link use is in spacecraft and satellite which send signals to earth and throughout space.
No. An optical fiber is a slim hair composed of glass. Glass is a fine insulator, and an optical fiber doesn't conduct electricity at all.
The Optical Fibre cable is used to transmit signals by light and its looks very thin plastic cable. If you want to use this cable at your home or you can use it at your office so firstly read the given instructions. The optical fiber cable mainly used signal transmission and communication with other networks. Now we are talking about the best online shop for these cables: FibreSales online shop. FibreSales sells the best cables and multiple products.
You will need a special card for each PC that would convert the communication signals (electrical signals) into optical code. Then you would connect the optical ports of both machines together via fiber optic cable. Ideally one card (one per machine) would be able to transmit and receive optical code over two strands of fiber. One strand for transmit the other for receive.
Usually, there is a laser diode that is optically coupled to the fiber.
Fiber optic cable is constructed out of glass or plastic, and uses light pulses to transmit data. Copper cable is made out of copper material (not glass or plastic) and uses electrical voltages to transmit signals.
Optical fiber cables transmit light from one end to the other. The data is encoded into this light beam and travels down the fiber in this light. Obviously you need optical sensors at each end to get the information in and out.
Optical fibers transmit light, not electrical energy.
1) Plastic (Polymer) Optical Fiber is used to transmit signals down a flexible, plastic material. 2) Polycarbonate coatings are used on optical discs to prevent scratching the underlying surface that has the actual pits and lands.
The optical fiber can be used both as unidirectional and bidirectional. The main application of optical fiber is in long-distance links, so there exists no need to employ them as unidirectional. For each direction different wavelengths are used to modulat the signals. At the same time many bidirectional signals can travel through the same optical fiber.
Because the attenuation of the fiber is much less at those wavelengths.
so stupid
There are two basic types of optical fiber.Multi Mode Optical FiberUsed to transmit many signals per fiber. (Multi Mode fibers are generally used for computer networks, lan applications).MultiMode Optical Fiber is produced as 50/125 and 62.5/125. (Core/Cladding diameter in microns.)Single Mode Optical FiberUsed to transmit one signal per fiber (Single Mode fibers are generally used for telephone and cable tv applications.)Single Mode Optical Fiber is produced as 8/125 and 9/125. (Core/Cladding diameter in microns.)
Fiber optic cables transmit digital signals as pulses of light.
Optical Fiber1. Photon has no mass, and it can travel faster than electron2. In multi-mode fiber, several channels of data can be transmitted at the same time